The present invention is directed to a multilayer capacitor and a circuit board containing the multilayer capacitor. The capacitor includes a main body containing a first set of alternating dielectric layers and internal electrode layers and a second set of alternating dielectric layers and internal electrode layers. Each set contains a first internal electrode layer and a second internal electrode layer wherein each layer includes a top edge, a bottom edge opposite the top edge, and two side edges that define a main body of the layer. Each layer contains at least one lead tab extending from the top edge of the main body of the layer and at least one lead tab extending from the bottom edge of the main body of the layer wherein the lead tabs are offset from the side edges of the main body of the layer. In addition, external terminals are electrically connected to the internal electrode layers wherein the external terminals are formed on a top surface of the capacitor and a bottom surface of the capacitor opposing the top surface of the capacitor.

A memory system includes a memory stack including a number of memory dies interconnected via copper bonding, a logic die coupled to the memory stack via a copper bonding. The memory system further includes a buffer die extended to provide the copper bonding between the logic die and the memory stack and a silicon carrier layer bonded to the memory stack and the logic die.

It is highly desirable in electronic systems to conserve space on printed circuit boards (PCB). This disclosure describes voltage regulation in electronic systems, and more specifically to integrating voltage regulators and associated passive components into semiconductor packages with at least a portion of the circuits whose voltage(s) they are regulating.

A semiconductor device includes an inductance structure and a shielding structure. The shielding structure is arranged to at least partially shield the inductance structure from external electromagnetic fields. The shielding structure includes a shielding structure portion arranged along a side of the inductance structure such that the shielding structure portion is around at least a portion of a perimeter of the inductance structure.

The embodiments herein relate to packages of semiconductor devices having a shielding element and methods of forming the same. An assembly is provided. The assembly includes a semiconductor chip having a passive component and a package within which the semiconductor chip is positioned in. The package includes a shielding element and a package conductive component, and the package conductive component is electrically coupled with the passive component of the semiconductor chip.

It is highly desirable in electronic systems to conserve space on printed circuit boards (PCB). This disclosure describes voltage regulation in electronic systems, and more specifically to integrating voltage regulators and associated passive components into semiconductor packages with at least a portion of the circuits whose voltage(s) they are regulating.

A package structure and a method of forming the same are provided. The package structure includes a package substrate, an interposer substrate, a first semiconductor device, and a second semiconductor device. The interposer substrate is disposed over the package substrate and includes a silicon substrate. The interposer substrate has a bottom surface facing and adjacent to the package substrate, a top surface opposite the bottom surface, and a cavity formed on the top surface. The first semiconductor device is disposed on the top surface of the interposer substrate. The second semiconductor device is received in the cavity and electrically connected to the first semiconductor device and/or the interposer substrate.

A semiconductor package includes a substrate, a die stack on the substrate, and connection terminals between the substrate and the die stack. The die stack includes a first die having a first active surface facing the substrate, the first die including first through electrodes vertically penetrating the first die, a second die on the first die and having a second active surface, the second die including second through electrodes vertically penetrating the second die, and a third die on the second die and having a third active surface facing the substrate. The second active surface of the second die is in direct contact with one of the first or third active surfaces.

A forming method of a semiconductor package includes the following steps. A first die is provided. The first die includes a first bonding structure and a first seal ring, the first bonding structure is formed at a first side of the first die, a first portion of the first seal ring is formed between the first side and the first bonding structure, and a width of the first portion is smaller than a width of a second portion of the first seal ring. A second die is provided. The second die includes a second bonding structure. The first die and the second die are bonded onto an integrated circuit through the first bonding structure and the second bonding structure.

Embodiments disclosed herein include electronic packages. In an embodiment, an electronic package comprises a package substrate, and a die module coupled to the package substrate. In an embodiment, the die module comprises a die and a chiplet coupled to the die. In an embodiment, the chiplet is coupled to the die with a hybrid bonding interconnect architecture.